阅读说明：本技术 智能灯具控制系统、打光控制系统以及打光方法 (Intelligent lamp control system, lighting control system and lighting method ) 是由 蔡毅 于 2021-01-29 设计创作，主要内容包括：本申请公开一种智能灯具控制系统、打光控制系统以及打光方法,能够根据商品的不同颜色,进行不同的打光。其中,所述智能灯具控制系统,包括：至少一个灯具,用于提供颜色可调的光照；至少一个本地网络控制模块,与所述灯具一一对应连接,且能够检测和解析目标信号,并用于根据所述目标信号调整所述灯具的出光参数,以及作为网点组建或加入网络；目标信号发生器,用于发射所述目标信号。(The application discloses intelligence lamps and lanterns control system, control system and the method of polishing can carry out different polishing according to the different colours of commodity. Wherein, intelligence lamps and lanterns control system includes: at least one luminaire for providing color tunable illumination; the local network control modules are connected with the lamps in a one-to-one correspondence manner, can detect and analyze target signals, and are used for adjusting light emitting parameters of the lamps according to the target signals and establishing or adding the lamps into a network as network points; and the target signal generator is used for transmitting the target signal.)

1. An intelligent luminaire control system, comprising:

at least one luminaire for providing color tunable illumination;

the local network control modules are connected with the lamps in a one-to-one correspondence manner, can detect and analyze target signals, and are used for adjusting light emitting parameters of the lamps according to the target signals and establishing or adding the lamps into a network as network points;

a target signal generator for transmitting the target signal;

the local network control module can judge the signal intensity of the detected target signal, so as to obtain the distance between the target signal generator and the local network control module.

2. The intelligent luminaire control system of claim 2, wherein the local network control module comprises at least one of a bluetooth unit, an infrared unit, a Zigbee unit, and an NB-IoT unit.

3. The intelligent luminaire control system of claim 1, wherein the target signal comprises a bluetooth signal, the target signal generator comprises a controller, a bluetooth module, and an input-output module, the input-output module being configured to control information carried by the target signal, the bluetooth module being configured to generate the target signal.

4. The intelligent luminaire control system of claim 1, further comprising:

and the remote control end is connected to the local network control module and is used for sending control information to the local network control module so as to control the light emitting rule of the lamp.

5. A lighting control system, comprising the intelligent lamp control system as claimed in any one of claims 1 to 4, wherein the target signal generator comprises a color collecting unit, collects color information of a target object according to the color collecting unit, and generates a target signal corresponding to the color information according to the color information;

the local network control module is used for adjusting light-emitting parameters according to the detected target signal.

6. The lighting control system according to claim 5, further comprising:

and the color label is used for marking the color of the target object and providing color information for collection for the target signal generator.

7. A lighting control system according to claim 6 wherein the color tag comprises a beacon for emitting color information or a target signal containing the color information outwardly.

8. A lighting control system according to claim 6, wherein the color label further comprises a two-dimensional code mark, the two-dimensional code mark recording the color information.

9. A lighting control system according to claim 8, wherein the color collection unit comprises a camera capable of collecting the color information.

10. A lighting control system according to claim 5, wherein the intelligent luminaire control system further comprises a remote control terminal connected to the local network control module for sending control information to the local network control module to control the lighting rules of the luminaire;

the local network control module is internally provided with a color matching rule, and the color matching rule can be modified according to the control information of the remote control terminal.

11. A polishing method is characterized by comprising the following steps:

acquiring color information of a target object;

forming a target signal carrying color information according to the color information;

and controlling the light emitting of the lamp according to the intensity of the target signal and the color information carried by the target signal.

12. A lighting method according to claim 11, wherein the color information of the object is marked by providing the object with a color tag for marking the color of the object and providing the object signal generator with color information available for collection.

13. A lighting method according to claim 11, wherein the lamp is configured with a local network control module to detect and analyze the target signal, and when the intensity of the target signal received by the local network control module is greater than or equal to a preset value, the light output of the lamp is adjusted according to a preset light output rule.

Technical Field

The application relates to the field of lamps, in particular to an intelligent lamp control system, a polishing control system and a polishing method.

Background

In modern society, people often need to use various lamps, and with the development of science and technology, people have higher and higher requirements on the lamps. According to different colors of commodities, different polishing is carried out, so that the color of the commodities is more in line with the preference of people, the consumption desire of people is enhanced, and the problem to be solved in the field is solved.

Disclosure of Invention

In view of this, the present application provides an intelligent lamp control system, a lighting control system and a lighting method, which can perform different lighting according to different colors of a commodity.

The application provides an intelligent lamps and lanterns control system includes: at least one luminaire for providing color tunable illumination; the local network control modules are connected with the lamps in a one-to-one correspondence manner, can detect and analyze target signals, and are used for adjusting light emitting parameters of the lamps according to the target signals and establishing or adding the lamps into a network as network points; a target signal generator for transmitting the target signal; the local network control module can judge the signal intensity of the detected target signal, so as to obtain the distance between the target signal generator and the local network control module.

Optionally, the local network control module includes at least one of a bluetooth unit, an infrared unit, a Zigbee unit, and an NB-IoT unit.

Optionally, the target signal includes a bluetooth signal, the target signal generator includes a controller, a bluetooth module, and an input/output module, the input/output module is configured to control information carried by the target signal, and the bluetooth module is configured to generate the target signal.

Optionally, the method further includes: and the remote control end is connected to the local network control module and is used for sending control information to the local network control module so as to control the light emitting rule of the lamp.

The application also provides a lighting control system, which comprises the intelligent lamp control system, wherein the target signal generator comprises a color acquisition unit, acquires color information of a target object according to the color acquisition unit, and generates a target signal corresponding to the color information according to the color information; the local network control module is used for adjusting light-emitting parameters according to the detected target signal.

Optionally, the method further includes: and the color label is used for marking the color of the target object and providing color information for collection for the target signal generator.

Optionally, the color tag includes a beacon, and the beacon is used for emitting color information or a target signal containing the color information outwards.

Optionally, the color label further includes a two-dimensional code mark, and the color information is recorded on the two-dimensional code mark.

Optionally, the color collecting unit includes a camera, and can collect the color information.

Optionally, the intelligent lamp control system further includes a remote control end, connected to the local network control module, and configured to send control information to the local network control module to control the light output rule of the lamp; the local network control module is internally provided with a color matching rule, and the color matching rule can be modified according to the control information of the remote control terminal.

The application also provides a polishing method, which comprises the following steps: acquiring color information of a target object; forming a target signal carrying color information according to the color information; and controlling the light emitting of the lamp according to the intensity of the target signal and the color information carried by the target signal.

Optionally, the color information of the target object is marked by equipping the target object with a color label, wherein the color label is used for marking the color of the target object and providing the color information available for collection to the target signal generator.

Optionally, the lamp is configured with a local network control module to detect and analyze the target signal, and when the intensity of the target signal received by the local network control module is greater than or equal to a preset value, the light output of the lamp is adjusted according to a preset light output rule.

The intelligent lamp control system, the lighting control system and the lighting method can adjust the light output of the lamp according to the target signal, and the target signal can carry color information, so that different lighting can be achieved by setting the color label, and the intelligent lamp control system, the lighting control system and the lighting method are simple and convenient.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent luminaire control system in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a shape of a lighting control system in an embodiment of the present application.

Fig. 3 is a schematic flow chart illustrating steps of the polishing method according to an embodiment of the present application.

Detailed Description

In order to solve the above problems, the present patent provides an intelligent lamp control system, a lighting control system and a lighting method, which can perform different lighting according to different colors of a commodity. The intelligent lamp control system, the lighting control system and the lighting method are further described below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an intelligent lamp control system according to an embodiment of the present application.

In this embodiment, the intelligent luminaire control system includes at least one luminaire 101, at least one local network control module 102, a target signal generator 103, and a remote control.

The lamp 101 is used for providing illumination with adjustable color, and comprises at least two LED lamps, each LED lamp 101 has different colors, and the light emitting color of the lamp 101 is changed by adjusting the light emitting intensity of each LED lamp. In practice, other light fixtures 101 are also possible, such as an incandescent lamp, etc., the color of the light emitted by the incandescent lamp is changed by changing the filament temperature of the incandescent lamp.

The local network control module 102 is connected to the lamps in a one-to-one correspondence manner, and is configured to control the light output of the lamp 101 to which the local network control module is connected, detect and analyze a target signal, adjust the light output parameters of the lamp according to the target signal, and establish or join a network as a network point.

The local network control module is used for establishing communication connection with other lamps 101 or remote control terminals with the local network control module to realize data interaction. The local network control module comprises at least one of a Bluetooth unit, an infrared unit, a Zigbee unit and an NB-IoT unit, and can send out communication signals and detect target signals.

In an embodiment, the local network control module includes a communication unit, a storage unit, and a control unit, where the communication unit is implemented by at least one of a bluetooth unit, an infrared unit, a Zigbee unit, and an NB-IoT unit, the control unit is connected to the lamp 101 and is configured to control the lamp 101 to emit light according to the control information, and the storage unit is configured to store data, store light emission rules of the lamp, and may make an index determination in the light emission rules one by one for different target signals.

In some embodiments, the control unit includes at least one of a programmable logic device, a single chip, and a microcontroller, and the storage unit includes at least one of NAND Flash, NOR Flash, and the like.

In some embodiments, the local network control module 102 further includes a determining unit, which is capable of obtaining a signal strength of a target signal and obtaining a distance between the target signal generator 103 and the local network control module 102 according to the signal strength of the target signal.

Specifically, the judging unit converts the intensity of the target signal into an electrical signal, and judges the intensity of the target signal according to the intensity of the electrical signal.

After the local network control module 102 obtains the distance, the light emitting of the lamp can be controlled according to the distance, and only the light emitting of the lamp within the preset distance is controlled, so that the effects of energy conservation and emission reduction are achieved.

The target signal comprises a bluetooth signal and the target signal generator 103 comprises a bluetooth module 105. The target signal generator 103 comprises a controller, a bluetooth module 105, and an input/output module, wherein the input/output module is used for controlling information carried by the target signal, and the bluetooth module 105 is used for generating the target signal.

The input and output module comprises a camera and the like, and can collect image information of the external environment so as to generate a target signal related to the image information.

In some embodiments, the target signal generator 103 includes a mobile terminal, such as a mobile phone, a tablet computer, a portable computer, etc., which has an input/output module 104, a controller, and a bluetooth module 105. In practice, the target signal generator 103 may be a remote control device additionally provided.

The remote control end is connected to the local network control module 102, and is configured to send control information to the local network control module 102 to control the light output rule of the lamp.

The remote control terminal has at least one of a keyboard, a touch screen, and the like, and can be used for information input.

In this embodiment, the number of the light fixtures 101 is at least two, for distribution to different spatial regions; each light fixture 101 is configured with one local network control module 102, and each local network control module 102 has a unique identity code and is embedded with the position information of the light fixture 101, and the position information of the light fixture 101 is given by the remote control end in a one-to-one configuration.

In this embodiment, since there are a plurality of light fixtures 101, the control information includes location information of the remote control end, and the local network control module 102 is configured to compare the location information of the remote control end with the location information of the local control end, and control the light fixtures 101 to be turned on according to the control information when the distance is smaller than a preset value. Therefore, only the lamp 101 near the remote control end is regulated and controlled, and unnecessary light emitting regulation programs of the lamp 101 can be effectively saved.

Referring to fig. 2, the present application further provides a lighting control system, including the intelligent lamp control system 200 in the above embodiment, where the target signal generator includes a color acquisition unit, acquires color information of a target object according to the color acquisition unit, and generates a target signal corresponding to the color information according to the color information, and the local network control module is configured to adjust lighting parameters according to the detected target signal.

In this embodiment, the lighting control system further includes: and the color label is used for marking the color of the target object and providing color information for collection for the target signal generator.

The color tag includes a beacon for emitting color information or a target signal containing the color information to the outside. The color information may be collected by the target signal generator and a target signal containing the color information is formed by the target signal generator. The target signal which is emitted by the color label and contains the color information can also be collected by the local network control module and correspondingly controlled.

In some other embodiments, the color tag includes a two-dimensional code mark, and the color of the target object recorded by the two-dimensional code mark can be acquired by the color acquisition unit of the target signal generator. In these embodiments, the target signal generator comprises at least a camera capable of collecting the color information by scanning the two-dimensional code.

Actually, the color tag 201 may also be configured to have a text mark or the like, or directly provide a color block to mark the target object information.

In practice, the color label may not be provided, and the target signal generator may be directly provided with a camera as a color collecting unit. At this time, the target signal generator may directly acquire image information of a target object through a camera, and perform color analysis on the image information to form a target signal including the color information.

In some embodiments, the target signal generator 103 further includes a controller and a bluetooth module 105, besides the camera, the controller is configured to analyze the acquired image of the target object, or a two-dimensional code mark, or a text mark, or a color block, so as to obtain corresponding color information and generate a target signal corresponding to the color information, and the bluetooth module 105 is configured to send the target signal to the outside, where the target signal includes bluetooth information.

In these embodiments, the controller has an image recognition algorithm built therein, and may analyze an image, a two-dimensional code mark, a text mark, or a color block of the target object to obtain color information of the target object.

In some embodiments, the color tag with the beacon and the target signal generator 103 may be used to send the target signal to the local network control module, so that the stability of the lighting system may be improved, and when the color tag is damaged or a user cannot collect color information carried on the color tag through a target signal transmitter, or the target signal is transmitted, the dimming function of the lighting system may still be implemented.

The local network control module is internally provided with a color matching rule, and after a target signal with color information is detected, a corresponding light emitting strategy can be matched according to the color information in the target signal so as to control light emission.

For example, when the color information is a cold color, a cold light lamp is given to make the cold color of the object appear better, thereby arousing the desire to purchase the object, or when the color information is a warm color, a warm light lamp is given to make the warm color of the object appear better, thereby arousing the desire to purchase the object.

The target objects comprise rich-color target objects such as clothes, and the lamps 101 are multiple and are assembled in different areas so as to emit different lights according to the distribution characteristics of the clothes with different colors, thereby increasing the buying desire of people on the clothes.

In some embodiments, the intelligent lamp control system can be further assembled in a restaurant or other environment to provide a hot light lamp during dining time of people and a cold light lamp during cleaning time of the restaurant. This may be achieved by providing the remote control with different color tags 201 at different time periods.

In this embodiment, the local network control module can obtain the distance between the target signal generator 103 and the local network control module according to the strength of the target signal, so that only the lamps within a preset distance can be controlled to perform light emitting adjustment, thereby achieving the effects of energy saving and emission reduction.

Referring to fig. 3, the present application further provides a polishing method, including the following steps:

step S401, acquiring the color information of the target object, specifically, marking the color information of the target object by assembling the color label 201 on the target object.

Step S402, forming a target signal carrying color information according to the color information;

and S403, controlling the light emitting of the lamp according to the intensity of the target signal and the color information carried by the target signal.

And marking the color information of the target object by assembling a color label to the target object, wherein the color label is used for marking the color of the target object and providing the color information which can be collected for the target signal generator.

In this embodiment, the number of the lamps 101 is multiple, the lamps are distributed in different spatial regions, and when the lamps 101 are controlled to emit light, the local network control module can obtain the distance between the target signal generator 103 and the local network control module according to the strength of the target signal, and control the lamps within a preset distance to perform light emission adjustment.

The target signal carries the color information, so that the local network control module can perform corresponding light-emitting strategy adjustment according to the color information.

The intelligent lamp control system, the lighting control system and the lighting method can adjust the light output of the lamp according to the target signal, and the target signal can carry color information, so that different lighting can be achieved by setting the color label, and the intelligent lamp control system, the lighting control system and the lighting method are simple and convenient.

The above-mentioned embodiments are only examples of the present application, and not intended to limit the scope of the present application, and all equivalent structures or equivalent flow transformations made by the contents of the specification and the drawings, such as the combination of technical features between the embodiments and the direct or indirect application to other related technical fields, are also included in the scope of the present application.